Apparatus for the production of blown-glass articles.



B. D. CHAMBERLIN.

APPARATUS FOB, THE PRODUCTION OI' BLOWN GLASS ARTICLES. APPLIoATIoN 311.111) AUG. 24, 1912.

I B. D. GHAMBERLIN. 1 y APPARATUS PoR THE PRODUCTION oP BLOWN GLASS ARTICLES.

9 SHEETS-SHEET 2.

APPLICATION FILED AUG. 24, 1912. y l 24,702. Patented Jan. 12, 1915.

B. D. CHVAMBERLIN. APPARATUS PoRV THBVPRODUGTION 0F BLoWN GLASS ARTICLES. APPLICATION FILED AUG. 24, 1912.

1,124.3?02. Patented Jan. 12,1915.

9 SHEETS-SHEET a.

Aq. y :5%

B. D. GHAMBERLIN. APPARATUS POR THE PRODUCTION 0F BLOWN GLASS ARTICLES.

Y APPLICATIO FILED AUG. 24, 1912. I l ylf, Patented Jan, 12, 1915.

9 SHEETS-SHEET 4.

@wi/immo@ M B. D. GHAMBERLIN. APPARATUS FOR THE PRODUCTION 0F BLOWN GLASS ARTICLES. AAAAAAAAAAAAAAAAA UG. 24 19'12.

Ljz. Pana Jan. 12, 1915.

9 SSSSSS -s'HBB'Jq 5.

B. D. GHAMBERLIN, APPARATUS PoR THE PRODUCTION or BLoWN GLASS ARTIGLBS.

' APPLIOATION FILED AUG. 24, 1912. l 1 24.702. Pana Jan. 12, 1915a 9 SHEETS-SHEET 6.

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B. D. GHAMBERLIN.

APPARATUS PoR THB PRODUCTION 0F BLoWN GLASS ARTICLES.

i APPLIGATON FILED AUG. 24, 1912.

Patented Jan.12,1915.

9 SHEETS-SHEET 7.

B. D. GHAMBERLIN. APPARATUS FOR THB PRODUGTION 0F BLOWN GLASS ARTICLES.

y APPLICATION TILED AUG. 24, 1912.

@51.2 497929 fr Patented Jan. 12, 1915.

s SHEETS-Smm a.

B." DI GHAMBERLINI APPARATUS=FOR THE vPR0DUGTION'O]:" BLOWN GLASS ARTICLES.

APPLICATION FILED AUG. 24, 1912.

Patented JaIz, 1515.

9 SHEETS-SHEET 9.

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TaTanT oTTToTz.

BENJAMIN DAY CHAMBERLIN, F CORNING, NEW YORK, ASSIGNOR T0 EMPIRE MACHINE COMPANY, 0F PORTLAND,

MAINE, A ,CGRPORATION' QF MAINE.

APPARATUS FOR THE PRODUCTION OF IBLOWN-GLASS ARTICLES.

Specication of Letters Patent.

l Application filed August 24, 1912. Serial No. 716,915.

To all whom it may concern.'

Be it known that I, BENJAMIN D. CHAM- BERLIN, a citizen of the United States of America, and a resident of Corning, New

o York, have invented certain new and useful Improvements in Apparatus for the Production of Blown-Glass Articles, of which the following is a specification. I

This invention relates to certain improve- MJ ments in glass Working machines and ithas for its'object to provide such an organization thereof that a blow-pipe having a suitable gather of glass thereon being inserted in the machine 'and the operation of the l machine being initiated, the machine will thereafter automatically form the gather into a suitable hollow blank and position the same vertically for elongation and in a proper position relative to the mold and will then arrest itself topermit the elongation of the blank, after which, at a period determined by an attendant, the action of the machine is again started and the mold closed upon the blank land the latter properly blown therein, after which the machine returns to normal position and the blowpipe is released from its operative mounting therein and presented in Aproper posltion to permit its ready removal by the attendant.

Inasmuch as'the machine here disclosed is a complete machine capable of performing all the necessary operations attendant upon the production of blown glass articles as hereinbefore described, it embodies iinprovernents both in the combination of the several parts by which the various steps are performed, as well as in the construction of the several parts themselves, as will be here- -O inafter more fully described and claimed.

Referring to the accompanying drawings in which corresponding parts are designated by corresponding marks of reference: Figure 1 is a front elevation of the machine forming the subject -matter of Vthis in vention, the parts being shown'in the position they "occupy during the blowing. Fig. 2 is a side elevation thereof, one unit and the Iparts common to the several units being shown in full lines, and another unit being shown diagrammatically. Fig. 3 is a fragniental front elevation of the main cam and its mounting, the blow-pipe frame, actuating links for the latter and certain'parts of c5 the air mechanism, the blow-pipe framebeing in horizontal position withthe blowpipe held therein. Fig. 4 is a fragmental elevation of the main cam and its mounting, the lower part of the blow-pipe fiume and certain parts of the air mechanism, the

blow-pipe frame being shown in the position it assumes during the molding period, together with the lblow-pipe inserted therein. Fig. 5 is a central vertical sectionl taken at right angles to Fig. 3. Fig. 6 is a fragniental front elevation of the blow-pipe frame, in its horizontal position with the blow-pipe inserted therein, the lower part thereof being shown. Fig. 7 is a section on line 7-7 of Fig. 6 of the molding air pump and its actuating mechanism, in the position immediately preceding the blowing. Fig: 8 is an enlarged sectional View of the blow-pipe rotating clutch in engaged position. Fig. 9 is an end view of the blowpipe i'eleasable guide bearing for the gather end of the blow-pipe. Fig. 10 is a plan View thereo Fig. 11 isa longitudinal section through the air head and blow-pipe chuck in the osition they assume after theintroduction ofl a blow-out charge. Fig. `12

is an end view thereof. Fig. 13 is a front 'elevation of the blank -shaping mechanism,

the parts being shown in the position they occupy immediately before cupping.A Fig. 14 is a plan view thereof. Fig. 15 is an end elevation thereof. Fig. 16 is a detail view showing the gaging mold or cup and its mounting. Fig. 17 is a front elevation 'of the blank shaping mechanism, the marverer disk being shown dotted, and all parts beingin normal position, the parts being shown as projected on a plane parallel to the plane of rotation of the marverer disk. Fig. 18 is asimilar view but showing the parts in the position they assume at'the instant Aof cupping. Figs. 19, 19", 19c and 19d, represent a blank in the successive steps in its formation in the machine herein described. Fig. 20 is a longitudinal section through the main clutch. Fig. 21 is a vertical section on line w21-m21 of Fig. 20, showing also certain associated parts. Fig. 22 is asection on line w22- m22 of Fig. 21. Fig. 23 is a horizontal front elevation showing the take-ofi' mechanism. Fig. 24 is a vertical section through the mold. Fig. 25 is a detail showing the latch for the cocking rod.- Y

The machine here described comprises a Patented Jan. 12, 1915.

plurality vof units, each capable of independent and separate operation, and certain parts'common to all and several units, for the purpose of economy of space and construction. The units are arranged in alinement with each other upon a common -base which supports a suitable motor from which motion is impartedby gearing to the main drive shaft, and the blow-pipe rotating shaft', both of which extending lengthwise of the base -and above the same, the said shafts being common to the several units.

' Inasmuch as the units may be multiplied to suit theconditions of the case and are similar in'construction it will only be necessary to` describe the construction of a single unit and its connection with the common mechanism. A

. Arising from the trough-shaped base 1 are vertical webbed standards 2, carrying the main drive shaft 3, and the main blowpipe rotating shaft the upper end of each standard having a tubular boss 5 on the forward face thereof to form a bearing for the corresponding cam disk 6, from which various movements to be hereinafter described, are imparted, the disk having peripheral teeth gearing with a pinion 65 upon the main dri-ve shaft, by which the said disk will be rotated from time to time in the operation of the machine. Mounted within the tubular boss of the disk is the trunnion 8 of the blow-pipe frame casting 9, the said trunnion having a central bore through which passes the main blow-pipe rotating shaft 4 common` to the several units. Also carried by each webbed standard-to one side of the head thereof is a blank forming mechanism, necessary motion to which is imparted from the peripheral teeth on the main cam disk 6, while in the base adjacent to the web frame is mounted the mold. The blow-pipe frame, the blank forming and the mold mechanisms of each unit each have motion imparted from the main disk. v

T he blow -pz'pe frame-The blow-'pipe frame comprises a casting 9, having on its rear face the integral trunnion 8, by which it is mounted in the tubular boss 5 of the corresponding standard 2, and a skeleton extension formed by pipes 10 and 11, on each side of the casting, which pipes carry at their upper ends the air head. The air head comprises a casting 12, in which is contained a cylinder 18, .having at its lower end a ball bearing 14, by which is carried the shell 15, of a blow-pipe chuck, the rear end of the chuck shell having secured thereto a` rearwardly projecting nipple 16,l a packing 17 being in the shell in front of said nipple. Around the rear end of the nipple is a cap washer 18, which effects an air tight joint between the nipple and the cylinder. Pivoted .withinradial slots 19 in the chuck shell are jaws 20, the rear ends of which are normally thrown inwardly by springs 21, whereby the outer ends of such jaws are thrown radially outwardly. Slidably mounted in the outer end Aof the chuck shell is a collar 22, having a bell mouth, and having its rear end beveled and adapted, when the collar is slid inwardly within the chuck shell, to Contact with the noses 23, upon the outer .edges of the jaws 20 and thereby throw the front end lof the j aws inwardly and against a serrated shoulder formed upon the upper endof the blowpipe 24: which is to be used in connection with the machine. The terms upper and lower are here used in respect to the blow-pipe frame and parts carried thereon refer to positions assumed while the blowpipe frame is in its vertical position.

The chuck shell carries a crown gearing 25, which meshes with a pinion 26, on a tubular shaft 27, having it outer end mounted in the air head casting and carried near its inner end in a bearing 28, on the blow-pipe frame casting, the said shaft having journaled thereon a beveled pinion 29,

`meshing with a corresponding pinion 30,

fast upon the main blow-pipe rotating shaft 4, immediately in front' of the blow-pipe frame. The pinion 29 upon the tubular shaft has a slotted head, with which a cross head 1811, upon the inner end of a rod 31 contained within the tubular shaft 2T, is adapted to engage when projected in the di'- lrection of the arrow by a spring v82. The

rod 31 is keyed in the shaft 27 and is adapt- 'ed to be retracted therein against the tension of the spring, by a grooved collar 33 keyed to the rod. Thus the blow-pipe will be rotated through the chuck and the driving connection` from the main blow-pipe rotating shaft so long as the clutch formed by the pinion 29 and the cross head 184; is in engagement. Pivoted to the blow -pipe frame casting is a lever 34 provided witha 1 finger 35 engaging the groove in thefcollar 83. As hereinafter described the lever 34 is actuated to disengage the clutch to arrest the rotation of the blow-pipe.

Attached to the lower end of the lower skeleton extension of the blow-pipe frame is a bracket 36, projecting forwardly from the face of the frame and carrying on its forward end an anti-friction roller 37. Pivoted to the forwardly extending portion of the bracket 36,. and extending upwardly therefrom is a lever 38, having an antifriction roller 39, on the upper end thereof, while a third anti-friction roller 40 is mounted at the pivotal point of the lever 88. The rollers form a bearing for the lower end of a blow-pipe when held in the frame, the forwardly projecting bracket serving as a fixed guide in the insertion of the blow-pipe.

The rear face of the lever 38 has a roller, 41 thereon, with whicha beveled face 42, on

a rod 43, slidingly lcarried by the blow-pipe' vthe same' has been inserted between them.

The sliding rod 43 has its upper en connected to an intermediate portion of a hand l lever 44, pivoted at 45, to the upper skeleton portion of the blow-pipe frame, the le`ver also carrying a yoke 46, engaging an ,annular groove 47 upon the chuck shell 15, whereby an upward movement of such lever will not' only close the jaws 20 upon the upper end of a blow-pipe inserted in the chuck, but will also cause the movable guide roller 39 to be shifted to engage and position the lower end of the blow-pipe. The blowpipe frame below its center has also lpivoted to its rear face one end of a lever 48, the opposite end of which is pivotally connected to the sliding rod 43, said lever carrying on its rear face a stud 49, adapted in the rotation of the main cam disk to be thrownl for v the purpose of automatically opening the chuck jaws 2O and the blow-pipe guide formed by the rollers 37, 39 and 40, as will be hereinafter described.

A lever 50 has its one end mounted on a horizontal pivot 51, in the lower end of the lower. extension of the blow-pipe frame, and

carries in its upper end a yoke 52, the yoke being normally held in alinement with the axis of a blow-pipe inserted in the frame, by a spring 53, the yoke opening sidewise in Y such manner that when the blow-pipe is in- \serted in the chuck and in the guide formed Aby the rollers 38, 39 and 40 of a blow-pipe frame when horizontal, it will also 'be inserted in the yoke. The lever 50 is however capable of swinging on its pivot 51, under the ressure exerted thereon by a collar 54 on t e blow-pipe when the blow-pipe frame is inclined, and the blow-pipe released, as will be hereinafter described. Normally the collar 54 is not in contact with the yoke, but

`when in contact therewith is prevented from sliding off the yoke by the pins 55 lon the latter.

Blow-pipe frame actuat0u.-The blowpipe frame .ismounted to turn about the same axis as is the mainI cam disk and the following mechanism is employed for causing the rotation of the cam disk to cause oscillation of the blow-pipe frame. A collar` 56 is fast upon the forward end ofthe tubular boss onthe web standard 2 and carries a radially projecting arm 57, to which .is pivoted one end of a link 58, the opposite end of which is connected with one en'd of a -link 59, the opposite end of which latter link isv pivoted, by 'the pin 60 to the rear face of .05 theblow-pipe framecasting eccentriio .the

tionsl the blow-pipe for the and cupping of the blank thereon; that 1 ,center of'rotation thereof. The link 58 car- Jrles lntermediate of its length and on its rear face a roller 6l, contained within a cam run 62 on the front faceof the main cam disk 6.. As a result of this construction it will be seen that as the cam Wheel is rotated in the direction of the arrow in Fig. 3 and moved past the fixed pvot on the arm 57 of th toggle lever system formed` by the two inks 58 and 59,' the link 58 'will be caused to assume different angular positions v around such pivot dand will thereby impart motion to the link 59 connected thereto and to the blow-pipe frame,wh ereby the latter i will be Iswung around its axis of rotation. The cam run 62 is so shaped that when the parts are iii-normal position the blow-pipe .frame is substantially` horizontal and that it will during the movement of thecamvdisk first be swung in the direction reverse to that of the movement of the disk; after'a rest will then b reversed in its movementand be swung in the direction of the movement of the disk until vertical and will. during further movement of the disk be temporarily held in its vertical position; and will then on further rotation of the disk be j given a movement reverse to that of the rotation of the disk and returned to normal. position. The functions laccomplished by these several movements of the blow-pipe frame will be hereinafter described. For the Ipresent it is sufficient to state that the initial movement of the blow-pipe frame in ,the directionl reverse to that of the move- .mentpf the wheel raises the lower end (that .is to say that end upon which is the gather of glass) of the blow-pipe slightly above the horizontal position, which is the normal position of the blow-pipe frame, and posithe next movement of the blow-pipe, (which is in the same direction as the rotation of the' disk) causes the vintroduc-` .blew-pipe framein the direction reverse to thaitfgf; the rotation of the disk restores it to itsg'irgfifrmal position. These movements and th rest :at marvering and cupping `are all .due to the rotation of the cam disk and are functions of the rotation of that wheel, but inasmuch as the period necessary for elon- `gation is variable, dependent upon thechar- 'acter and heat of the glass and of the mass -of the gather, means are provided for ,permitting variation in the rest positionM-tlie` 'blow-pipe at elongation. of ;tl1e; main -clutch A63.

.This is a'function A so,

marverin'g Y Th'e maz'n cZutc'e.-The main clutch of each unit comprises a collar 64, fast upon 'the main drive shaft 3 and provided with a rear toothed end. Journaled on the drive shaft adjacent to the collar and inthe rear thereof is a pinion 65, meshing with the of the pinion being longitudinally recessed at 66, to receive a bolt 67, normally projected into engagement with the toothed end of a collar 64, by means of a sprin 68, whereby the pinion is locked to the rive shaft and thereb serves to drive the cam disk. The bolt as a shoulder 69, on the outer rface thereof, adapted to be engaged by a beveled face 70, upon a ring 71, contained in an annular groove inthe hub of the pinion, but normally projected. forwardly in respect to the rotation of the drive shaft 3 (see arrow', Fig. 21) by means of a spring 72, interposed between a pin 73, in the hub of the pinion, and a shoulder 74 upon the said' ring. To permit su'ch projection of the bolt a slot 75 in the ring registers with the shoulder 69 on the bolt'at such times. However upon arresting the rotation of the ring, while the pinion 65is rotating, relative motion will take place between the hub ofthe pinion and the ring and the coacting beveled faces on the ring and the shoulder 69 of the bolt will retract the latter and disengagle the clutch. For the purpose of effecting t is arrest of the ring the latter has peripheral teeth 77 thereon, with which a A nose 78, on a sleeve 79, mounted upon a bearing 80, adjacent to and parallel with the main shaft 3 is adapted to engage. crank arm 81, projecting outwardly and connected by a link 82 with one arm of a pivoted bell-crank lever 83, a spring 84, tending to bend the toggle system' 'thus formed, being connected thereto, whereby 'i the nose 78 will be pulled from disengagement with the toothed ring 71, thereby enga 'ng the clutch.

' ivoted upon the blow-pipe frame pipe 10 is a clutch actuating presser foot 85, connected by a link 86, with the hand lever 44, the presser foot normally and when the blow-pipe frame is horizontal, resting on the projecting end of a bell crank 83, as shown in dotted lines in Fig. 3 and straightening out the toggle system to hold the nose 78 in engagement with the ring 71. Upon moving the hand lever 44 to engage the clutch with the blow-pipe and close the rollers 37, and 39, the presser foot 85 will be drawn from olf the end of the bell crank 83,

permitting the spring 84 to bend the togi gles, thereby releasingthe toothed ring 71 and permitting the main clutch togo into engagement, whereupon the cam disk 6 will be rotated to swing the blow-pipe frame for its various movements and to finally posiperipheral teeth of the main cam disk 6, the y The sleeve 79 is provided witha tion it vertically. The sleeve 79 also carries a downwardly and inwardly projecting b1- furcated arm 87, in which is pivoted a iinger 88, adapted when the blow-pipe reaches its ,vertical position to be struck by .the side of the blow-pipe trama-thereby again rocking the sleeve 79 .to disengage theclutch, whereupon the movement of theblow-pipe frame is arrested. The clutch may then, and after a proper time to ermit elongation, berengaged by manual y shifting the linger 88 upon its pivot 1n the blfurcated arm 87, b y means of a push rod 89, which throws'the fingery to the rear of the plane of the blow-pipe frame, permitting the spring 86 to again draw the nose 78 out of engagement with the toothed ring 71, whereupon theclutch is again engaged. The cam disk -6 is thus again put in rotation for the purpose of introducing the blowing air and,

actuating thev mold mechanism and for finally restoring the blow-pipe frame to initial position. Upon the run of the blow- ,pipe frame vto this position, a projection 90 upon the main cam disk 6 will contact with the stud 49 upon the lever 48 of the chuck actuatingsystem, to open the blow-pipe engaging jaws, and release the blow-pipe, this movementbein attended by a restoration of the presser oot 85 to its initial position in respect to the blow-pipe frame. After this release of the blow-pipe the blow-pipe frame will reach its normal horizontal position and the presser foot will strike the end ofthe projecting end of the lever 83 and againthrow the nose 78 into engagement with the toothed ring 71, to disengage theA main clutch,v whereby the rotation of the cam disk 6 will be stopped with all parts in their normal position ready for the repetition ofthe operation.

Part of the cam run 62 which coacts with the roller 61 upon the blow-pipe actuating toggle system upon the rengagement of the clutch is concentric, so that, during such period and while the blowing and molding operations are performed the blow-pipe `frame is stationary. This stationary period of the blow-pipe frame during blowing and molding is purely, however a function of the shape and the length of the cam run and should not be confused with the elongation period, which is due to the disengagement of the main clutch.`

Blank shaping deocef-For the purpose4 on, the blow-pipe, is roughly marvered to`v generally shape it', and such marvered blank is gagedA as to vsize and shape an'd subsequentlyremarvered to produce a homogeneous blank preliminary tothe blowing operation andl control the distribution of`glass in the finished article. One of the features of lthis part of the invention is --the gaging of amass of Vglass by momentary contact or inclusion in a suitable ga e mold. 1t is essential yto the proper per ormance of this operation that the contact between the gage mold and the glass be limited in duration,

as otherwisethe gage moldz will cause local cooling of the glass if chilled and if'hot will adhere-thereto, For these purposes the upper end of the web standard 2 carries on its right-hand side a -projectin arml 91, -on which the blank shaping device 1s adj ustably mounted to be'shifted radiallyein respect to the pivotal point of the blow-pipe frame, sucharm being in the rear of the correspending Ablow-pipe frame, the axis of the arm being at -an angle above the horizontal. In -the head ofwthe web standard 2 is the stud 92, 'having journaled thereonja pinion 93, meshing with the peripheral teeth of the main cam disk 6, and having a beveled gear 94 fast thereto and meshing with the corresponding ear-95, upon the inner end of a telescopic jack shaft 96, carried in the upper part of the arm-91. The outerend of the telescopic shaft carries a beveled pinion 97, meshing with a-beveled gear 98, on the rear end of a shaft 99 journaled in the outer end ofthe arm l91. 'The shaft-99 is transverse to the arm 91 and inclining downwardly and forwardly, and carries on its forward end infront of the arm 91 a rotary marverer disk 100, '-havingtwo crown sectors 101 and 102, which are thicker at their rear than at theirforwardends. the elevation of the iirst -sector 102 being 'slightly greater above the plane of the marverer disk on its outside than that of the second sector and the inner periphery of the second sector being of'less radius than that ofthe first sector,l and thus nearer the axis of rotation of the disk. Each l sector is also beveled having its outer edge thicker than its inner, the sectors being 'varied in proportion, and contour at their various parts to suit the glass worked ,and the distribution. of glass which they are to accomplish. The marverer disk is thus rotated during the whole period of rotation of the main cam disk, the ratio ofithe gearing between them being such that the marverer disk is rotated twice to each rotation of the cam disk.

In the operation of the machine the initial rotation of the main cam disk lifts the gather end of the blow-pipe and positions the blowpipe parallel to the axial line of the blank shaping and forminglmechanism, the blowpipe projecting past the axisof the'marverer disk, and the blow-pipe frame is arrested in this raised position by a concentric portion ofthe cam'run 62 in the mainzcain disk and by a stop'103, upon'the forward face. of the arm 91. When the blow-pipe is so positioned the marverer disk is 1n such position, as shown in Fig. 17, that further rotation thereof will bring the thinner entering edge of the marverer sector 102 past the gather on the blow-pipe and the continuing rotation of the marvering disk causes the face of the sector 102 to pass into contact with the gather on the blow-pipe, whichis in rotation due to the mechanlsm before described, thereby marvering the gather, and due tothe shape of such face, working the glass rearwardly-on the blow-pipe.

Afsliding frame, vcomprising rods 104, is mounted in the end of the arm 91 to move axially' and parallel, with the axis of the blow-pipe when in its raised position, the rods carrying on their outer ends a head 105, to the forwardly extending endof which is secured a gages-mold or cup 106, inthe axial lineY of theblow-pipe when raised, and normally beyond the path of movementof the gather thereon. The cup has an inwardly facing smooth internal cavity of proper size and shape, dependent upon the blank which is to be formed.

Mounted at an intermediate point of the arm 91 is a shaft 113 having fast on the rear end thereof a ear wheel 107 driven through an idler 108, om a pinion 109, fast on .the rear of the beveledI gear 98 of the marverer disk, the said shaft 113 having fast thereon a disk 110, which has projecting from the forward face thereof a stud 111, to which one end of a volute spring 112, is secured, the opposite end of the spring being at-' tached to a crank 114 sleeved on the front end of the shaft 113, which arm is connected by a link 115 with the sliding frame. Normally the arm 114 and link 115 are held in alinementV parallel with the rods 10-1 by mea-ns of a dog 116, pivoted to the front of the arm 91, and engaging the pivot-pin 117 connecting the arm and link, but such dog is adapted to be released from the pivotal pin by a striker lug 118 upon the said disk contactingwith a projecting noseV on the dog 116. The arrangement of these parts is such thatthe gear 107 makes a complete revolution for each two revolutions of the marveringV disk, or one revolution for each revolution of the main cam disk. and that at the same time that a notch 119, in the periphery ofYV the marvering disk between the rear end of the first marvering sector 101 and the front end of the second sector 102, comes opposite the gather on the lifted blow-pipe, the striking lug 118 will. release the dog 116 (see Fig. 13) from the pivot pin 117 and permit the spring 112` which 1sat that time under tension` to rapidly rotate the arm 114 through almost a complete revolution, thus causing a sliding movement of the cuppingframe formed by the rods projected upon the end of thegather and be spring is attached, and by the Ytime such post has, by the rotation of the disk 110, been moved sufficiently far to permit the restoration of the arm to its initial position, the striking lug 118 will have moved past the nose of the dog, permitting the latter to again be positioned to engage the pivot pinl 117, thereby arresting the further movement of the latter. The disk 110, continuing to revolve, will again put the spring under tension for a repetition of-this action when another gather has been positioned. ln this mechanism the first cam sector 102 of themarverer is so shaped that after a mass of glass on the blow-pipe (which may have the shape as shown in Fig; 19a) has been in contact therewith it will be given the shape of a truncated cone (see Fig. 19") and the surplus of the gather will be worked back to a greater or less extent upon the blow-pipe and is in this shape when the gage mold 106 is projected thereon. Inasmuch as the cavity of this mold has a delinite capacity and as the gage mold in every operation is moved inwardly a uniform distance and to within a fixed distanceof the end of the blow-pipe, it follows that any surplus 'glass over the quantity predetermined by the capacity of the gage mold will be forced back upon the blow-pipe (see Fig. 19C). As that part of the gather which extends beyond the end of the blow-pipe will be distributed to form the finished article, it will be seen that each blank after the gage mold has come in vcontact therewith, consists of a uniform quantity of material to be utilized in the subsequent manufacture of the linislzed article. After the momentary shapirr by the gage mold and the retraction thereof, the, continued rotation of the marverer disk brings the second sector 101 thereon into Contact with the blank, whereby that part of the latter which is to form the finished article is slightly elongated (see Fig. 19d) and whereby any imperfections leftbv lthe gage mold are eliminated. For the purpose of preventing injury to the machine, if for any reason the gage mold should not be retracted from in contact with the gather upon the end of the blow-pipe, the cup is pivotally mounted upon the head 105 and is normally held in position by flat springs 190, so that it may then have a.limited angular movement around its pivot moving at such times with the blow-pipe and with the marrer-er disk until it escapes therefrom. to prevent breakage.

shown for this purpose has for its `object to ,therein and lthis admission of. air may be repeated one or more times prior to the elongation. Theair for molding the blank is independent of and distinct Ain its source from the air admitted during the blow-out and elongation and the air for the last named purpose is controlled by mechanism y in the connection between the source of molding air and the blow-pipe.

Mounted on the head of each web standard 2 and in the same plane as the main cam disk 6, is a stationary cam plate 120, which, asV shown, is a sector concentric With the bearing formed by, the tubular boss' 5, vand which carries a series of radially adjustable cams 121, 121, 121", etc., and a series of crown trip projections 1221, 122, etc., the rises of the series of cams being radial in respect to the axis of oscillation of the blowpipe frame whilethe rises of the projections are at right angles thereto.

Passing through the head of the cylinder 13 is the piston rod 123, the inner end of which is reduced in diameter and carries an enlarged headA12-1, having a packing thereon 125, which is normally seated against the rear end of the nipple 16 of -thechuck shell by a spiral spring 126. Slidably mounted upon the reduced portion of the piston rod 123 is the piston head 127, having ports 128, therethrough, while fixedly mounted upon the piston rod upon the outer side of the piston head is a washer-129, having a 'suitable packing 130 on its inner face, and adapted when in contact with the piston head 127 to seal the ports 128 therein. The piston rod has upon its outer end and upon the outside of the cylinder, ahead 131,.with which a laterally extending finger 132 on the outer end of a cocker rod 133 slidably mounted in the blow-head casting and'in bearings on the body of the blow-pipe frame, is adapted to engage. The inner end of the cocker rod is provided with a foot block 134, carrying a roller 135, adapted to contact with and be lifted by the cams 121, etc., and has also attached thereto a laterally extending arm 136, having on the end thereof a roller 137, adapted to contact with the projections 122, etc., on the fixed cam plate, whereby the 'rod will be given 143. When the blow-pipe frame is in msnm? 1 l piston mi andi'per'mits. the spring 12a td rod 133 is, itself normally of the piston is coned at its upper en'd.

y' Pivoted infront of the fixed cam platel 120near the lower end thereof is a.. bell crank lever 140, having an adjustable-fingerI 141, with a bevel nose upon its upper'arm, the other arm thereof being substantlally horlzontal and being normally held in conf tact with a stop 142, bymeans ofajspring position to effect the marvering the roller 137 upon the slide rod 133 is opposite the bevj eled nose of the adjustable nnger 141, and. upon the completion of the shaping of the v blank by the blank forming mechanism the .j substantiallyhorizontal arm of the cranklever 140 will be struck by the crown stud 90 upon the cam wheel to throw its upper f end outwardly and to bring its beveled inger behind the roller 137 and thus cause an angular movement of the cocker rod 133.

A. three arm tap end of the fixed cam plate 120. A beve ed of its rising arm, is bent forwardly to form a toe 147, a heel arm bearing upon the periphery of a cam 149 upon the face of the main cam disk 6 (see Fig. 4) by which the tappet will be lifted, this occurring vduring the tlme the blow-pipe is in vertical position.

Guided in bearings in the air head casting and in the blow-pipe frame is a push rod 150, normally projected lnwardly by a spring 151, the upper end of the rod carrying a head 152, which encircles the plston rod 123 below the head 131 thereof and also carrying a sliding valve 153, spring pressed against the cylinder 13, and a apted on the outward movement of the rod to close an aperture 154 in the wall of the cylinder.

It will be noted that the lower cam 121 is reversed in its facing in respect to the other cams of the same series.

Mounted in the ylower end of the blowpipe frame is a diaphragm pump, consist.- ing essentially of a cylinder 155, having a diaphragm piston 156, guided by stems 157, inv a bracket 158, extending vacross the open end of the cylinder. A link 159, has its one end connected to the piston 156 and its other end to one lever 160, which lever has another of its arms pivoted to the\blowpipe frame and has its third armextending forwardly and connected by a link 161, with the, slotted forwardly extending `arni of va bell crank pet lever 144, is pivoted at 145, by-its horizontal arm to the upper i 148 upon such depending end of a three arm.

-, lever 5.162,. also pivotedA in .the blow-pipe 'I frame and having itsy other arm extending upwardly andrearwardly to the rear of the frame, where itcarries a roller-163, which is adapted to be moved forwardly upon the rotation of the mainvcam disk b a crown cam )164 thereon, (see Figs. 6 an 7)' which is vadjustable to and from the mam disk.

from the -disk and the adjustment of the link 16]..in the slot of the bell crank 162,

varied.- The interior of the pump cylinder 155 is connected through the pipe 10 and through the pipe 76 with the head of the cylinder 13 in the air head.

With the air mechanism arranged asbeposltiontheir operation is as follows The blow-pipe frame being put in movement and the gather end of the blow-pipe being lifted, the lower camy 121 shoves the rod 133 outwardly vand as the finger 132 thereon isabeneath the head 131 on the piston rod 123, the latter partakes of this movement. rthis retraction of the piston unseats the enlarged head 124 thereon from the nipple 16 on the tive movement of the piston head 127. on the piston rod as will separate the washer `the characteristicsvof the charge of air delivered by the diaphragm pump may be By the vadjusta'nent ofthe cam 164 to and -'fore described and the parts in their normal blow-pipe chuck, and also causes such rela-' 129 from the head 127 and uncover the ports 128. After the cupping and marvering has been effected, at the termination of the upward movement of the gather, the crown stud on the main 'cam wheel will contact with the substantially horizontal arm of the bell crank 140 and throw the nger 141 on the other arm thereof outwardly, behind the roller 137, thereby partially rotating the cocker rod 133, and disengaging the finger 132 thereon from the head 131 ofthe piston rod, permitting the spring 126' to project the latter inwardly. rlhis projection of the piston by the spring 126 iirst closes the ports 128 and then forces a definite quantity of air into the formed blank on the 138 when the movement of the' blow-plpe f frame moves it from over the cam 121 and in so doing the finger 132 contacts` with the beveled top 'of the head 133 on the piston,`

rodhand slips past Vthe same to engage therewit 141, (aswill be noted) is dueto tle rotation lof the mp n cam disk and can be timed to occur whi tio'iary'with the gather raised.

This releasing action of the finger Upon theI movement after marvering, of the blow-pipe frame, toward vertic position, `the cocker rod 133 and piston 12 will be forced outwardly bythe successive cams.

121, etc., and from the rod etc., thereby charges into the piston will be released by the successive trips 122, forcing a succession of air the blank. The number of the several cams 121, etc., and corresponding etc., may be varied at trip projections 122,

advisable to will and it will also be found make the several cams adjustable on .the

whereby ythe quantity of air blank at each stroke ofthe piston may be varied. As the blow-pipe frame swings to vertical position, the cocker rod 133 is finally lifted by the cam 121e and cam plate, forced into the the end of the blow-pipe rotating clutch lever 34 moves over the toe 147 of the three arm lever 144, and the final rotation of the main cam disk just before it is stopped bythe blow-pipe reaching vertical position, partially lifts such lever 'and thus disengages the blow-piperotating clutch, whereby the' rotation of the blow-pipe will be arrested.

This is of value during elongation as itsL prevents' the blank being twisted and strained' by any unequal distribution of glass that might exist therein. Upon the main cam wheel being again put in rotation, the lever 144 is further raised, whereby it will drop its contact with the blow-pipe rotating the same time the cam in the cylinder 13 and slightly shifting theA piston 123 to unseat the enlarged head 124 thereon from the nipple 16, and to uncover the ports 128 in the piston head 127. About 164 on the main cam disk moves behind the roller 163 on the pump actuator bell crank 162, and through the link 159 presses in the diaphragm 156, thereby .deliveringair to the cylinder 13, which air passes through the uncovered ports 128 and through the nipple 13 to the blow-pipe and blank thereon to blow the latter when lin the mold. The cam 164- is so shaped that the diaphragm of the pump will be so actuated with such movement as to produce the proper graduation in the amount of airl delivered to the blank,'this graduallv increasing. Y

It will be noted that the cylinder 13 is in communication with the outer atmosphere through the aperture 154 during the periods in which the admission of air into -piston therein,

, ing

. charge,

the blow-pipe is due to the action of the piston pump, formed by the cylinder 13 and and thatthe pusher rod 150 forming the means for closing such aperture simultaneously unseats the enlarged head 1'24 from the nipple 16 and opens the ports 128 to effect an uninterrupted communicationbetween the diaphragm pump and the blow-pipe.

It should be-further noted that when the parts are in their normal position the cocker rod 133 is retracted slightly, whereby the end of the nipple 13 and the ports 128 will be opened, so that when Ithe blow-pipe-is placed in the blow-pipe frame, with its end in the chuck, the interior of such blow-pipe will be in communication with the external air through the aperture 154, thus precludany premature compressionof 'air within the blow-pipe during the closing of the chuck thereon.

It will be .further noted that prior to the. introduction of each air charge the interior of` the blow-pipe is placed in communication with the external air through the Vnipple and ports, which are opened on the rearward movement of the piston rod 123 preparatory to the forcing in of the next and through the aperture 154.

In order to hold the cocker rod 133 out- Ward during the' return'of the blow-'pipe frame from vertical to horizontal position, and to thusavoid at such time actuation thereof by the series of cams 121, etc., and the actuation of the pump piston 123, there is pivoted on the blow-pipe frame a latch 191, having a finger 192 on the lower end thereof adapted to catch the lower face of the block' 134 on the cocker rod when the latter has been lifted by the last cam 121e when the blow-pipe is Vertical, the lift of the cam being greater than the othersof that series. Thus the cocker rod when the beveled face 146von the tappet shifts it to cause its nger 132 to release the pump piston 123 is held raised and retained in this position until a peripheral cam 193 on the fixed sector 120 lifts an arm 194 on the latch 191 as the blow-pipe frame is approaching its horizontal position, this releasing the cocker rod.

M old mechanism.-Mounted on a bracket 165 adjacent to the base of the web standard is the mold mechanism comprising two mold halves 166 pivoted for opening an closing movement uponl a horizontal shaft 167, which shaft is rotated for dipping the moldin the `water in the trough shaped base 1 by a cam track 168 on the rear ofthe' main cam disk and by an operating lever 169 and a link 170, connecting the latter with the shaft 167. The mold halves are opened by a second cam track 171, also on the rear of the main disk and by an operating lever 172, connections 173 being provided vto accomplish these movements, the shane of the i cams being such that the molds are 'normally o'en `-.ndl immersed in the water.

The ad ustmentsv are sue that by ,the

time the blow-pipe becomesI verticalr theVV molds are erectI and open; that the rotation of t e main cam disk after elongation closes the mold u on the blank la, d 'after/ a, proper time to permit the molding, opens the mold molds are returning to theirdipped position during the return of the blow-pipe frame.

Tte, maleta-.Molds heretofore employed have'geerally'consisted of a separable iron body, the inside of which has a layer f carbon formed thereon by the burning oif of a Y "the water bath, not only will the water bev hydro-carbon iuid. These molds require to be wetted between each blow and diliculty has been experienced both in maintaining the carbon deposit andfrom the molds due to their high conductivity, causing the rapid cooling of theV article and the consequent formation of stresses therein. These defects are avoided by making the mold of a body of carbon, preferably of some agglutinated Y form thereof, and as such material is not of such inherent strength as to withstand the stresses to which it is subjected, it is in'closed in a separate cage of metal, leaving between the carbon and cage a chamber through which water may be circulated to cool the exterior of the carbon mold, its interior being also cooled in the dipping.

As shown in Fig. 24 an improved mold,

comprises a two part shell, adapted-to be supported in a suitable mold frame by which such parts may be moved and dipped. Each of the separable parts of the shell, as shown, comprises the body casting 174, and the half bottom casting 175. The body castings are provided with internally restricted top collars 176,"and the body castings and the half bottoms together form grooves 177. 1t is obvious however that this particular construction of shell may 'be changed.

The carbon mold proper -comprises the two parts which together constitute and form the mold cavity. Each part comprises the body part 178 and the half bottom part 17 9, the bottom andv body parts 178 and 17 9 having flanges 180 thereon held within the grooves 177 of the mold shell, while the body parts 178 have their upper ends adapted to fit within the restricted collars 17 6 of the body parts 1711l ofthe mold shell. While as described each mold half las made isin two parts it is obvious that each part be made in a. single piece. l j

The mold parts 178 and 179 are formed of an agglutinated carbon either molded directly into the desired shape or worked out of a block of proper size and are in the of comparativel thin wall structure, which,.however, is self7 supporting in that Ythe carbon, thereof maintains its shape without breaking.Y The shell which has been describedmerely serves for the manipulation of the carb'onlp'arts of the mold and to protect them against injury. The external diameter of the'parbon part of the mold is less than the internal diameter of the supporting shelhexcept a'tsthfeI restricted collars and grooves, wherehyfan annular space Y181 encircles ytheycarbonbetween it and the shell. A corre'sponding space -182 is left between bon'bottom 179 of the carbon mold and thebottom `175 of the shell. The shell hasnaperture's 183 formed in its walls communicating with this' annular space, whereby, when the complete mold is dipped into in contact with the inner surface ofthe carbon mold but will also iiow around vthe outer surface, whereby the mold will be effectu- -allyfwetted and cooled on both sides. This 1s o heat distribution in the mold and preventing the cracking of the latter due to heat strains. Y l

With a mold so constructed the stopping of the molding operations t coat the mold is almost entirely avoided in that-the body of the mold itself is of the material in which it is desired to mold. lf, however, itv is desired to coat the mold at any time lamp black or charcoal may be thrown into the interior of the mold to accomplish this purpose.

Take off-As the blow-pipe frame swings lback tn normal horizontal position after the blowing of the bulb the projection 90 on the cam disk as before stated, will contact with the lever 48 of the chuck releasing system .i and actuate the latter to release the blowpipe, which will slide in the guide formed by the rollers 37, 39 and 10, thus bringing thecollar 54- on the blow-pipe against the yoke 52, whereupon the weight of the blowpipe will swing the lever 50 around its pivot 51. In this motion the blow-pipe will be carried out of the guide formed. by the rollers 37, 39 and 40, which have been opened and the blow-pipe will remain suspended in a vertical position from such yoke, the lever being arrested in the position shown in Fig.Y 23 by the contact of the tail thereof with a dash pot 196- carried on the bracket 158. In this position the blown bulb is pendant from the blow-pipe, thereby preventing distortion of the neck When the blow-pipe is removed from the yoke, the spring 53 will return the lever 50 to its normal position'as shown in Fig. 6.

Inasmuch as the claims ofthis application have been restricted to an air mechanism, 1

importance in maintaining a uniform thereof by bending.

. ILO

- the same,

ing recitals of the air mechanism abandon as such claims are made in other applications, plications filed prior to the issuance of the patent hereon. Y

Having thus described my invention what I claim is 1. In a lass blowing machine, the combination wlth a glass carrying spindle, of a plurality of air pumps, successively delivering air charges to the glass carrying spindle, the said pumps being each constructed 4to deliver on each actuation thereof a definite predetermined charge at the rate required or will be made in other ap-v actuation at that time to swell the glass on the glass 15 carrying spindle.

2. In a glass blowing machine the ycombination with a glass carrying spindle, of a plurality of air pumps each adapted on each thereof to deliver an aircharge to 2c the glass carrying spindle the air charges so delivered by the dierent pumps being of dii'erent characters.

BENJAMiN im cHiMEBLiN.

Witnesses I FRED. C. CAMERON, G. WiLLIs BRAKE. 

